We demonstrate the ability to program the wavefront of single-photon states produced by spontaneous parametric down conversion into complex two-dimensional patterns with a spatial light modulator for application in quantum authentication and quantum communication. © 2014 OS
The control of light scattering is essential in many quantum optical experiments. Wavefront shaping ...
We review the physical principles behind measurement-based quantum information processing with optic...
Linear optical quantum computing aims to harness the inherent advantages of photons, such as an abse...
We demonstrate the ability to program the wavefront of single-photon states produced by spontaneous ...
35 word abstract: We demonstrate the ability to program the wavefront of single-photon states produc...
Wavefront shaping allows for ultimate control of light propagation in multiple-scattering media by a...
Over a century after the modern prediction of the existence of individual particles of light by Albe...
The ability to prepare arbitrary quantum states within a certain Hilbert space is the holy grail of ...
We constructed two quantum optical setups to control and detect single photons generated via Type-I ...
Single photons - discrete wavepackets of light - are one of the most fundamental entities in physics...
Application of quantum sources in communication and information processing are believed to bring a n...
We study distinguishing information in the context of photonic quantum interference tailored for pra...
Quantum information processing opens up completely new possibilities in communication and computatio...
Though state-of-the-art quantum computers are currently limited to only a handful of physical qubits...
In quantum cryptography, non-cloning properties of quantum states are exploited to achieve quantum s...
The control of light scattering is essential in many quantum optical experiments. Wavefront shaping ...
We review the physical principles behind measurement-based quantum information processing with optic...
Linear optical quantum computing aims to harness the inherent advantages of photons, such as an abse...
We demonstrate the ability to program the wavefront of single-photon states produced by spontaneous ...
35 word abstract: We demonstrate the ability to program the wavefront of single-photon states produc...
Wavefront shaping allows for ultimate control of light propagation in multiple-scattering media by a...
Over a century after the modern prediction of the existence of individual particles of light by Albe...
The ability to prepare arbitrary quantum states within a certain Hilbert space is the holy grail of ...
We constructed two quantum optical setups to control and detect single photons generated via Type-I ...
Single photons - discrete wavepackets of light - are one of the most fundamental entities in physics...
Application of quantum sources in communication and information processing are believed to bring a n...
We study distinguishing information in the context of photonic quantum interference tailored for pra...
Quantum information processing opens up completely new possibilities in communication and computatio...
Though state-of-the-art quantum computers are currently limited to only a handful of physical qubits...
In quantum cryptography, non-cloning properties of quantum states are exploited to achieve quantum s...
The control of light scattering is essential in many quantum optical experiments. Wavefront shaping ...
We review the physical principles behind measurement-based quantum information processing with optic...
Linear optical quantum computing aims to harness the inherent advantages of photons, such as an abse...
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